A signal processing device includes a device package, processing circuitry and biasing circuitry. The processing circuitry is packaged in the device package and is operative to receive one or more Radio Frequency (RF) input signals from one or more antenna elements via one or more pre-amplifiers that are separate from the device, and to process the RF input signals so as to produce an RF output signal. The biasing circuitry is packaged in the device package and is operative to produce one or more biasing signals for biasing the pre-amplifiers.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A signal processing device, comprising: a device package; processing circuitry, which is packaged in the device package and is operative to receive one or more Radio Frequency (RF) input signals from one or more antenna elements via one or more pre-amplifiers that are separate from the signal processing device, and to process the RF input signals so as to produce an RF output signal; and biasing circuitry, which is packaged in the device package and is operative to produce one or more constant-current biasing signals for biasing the pre-amplifiers with a predefined, constant current, wherein the processing circuitry is operative to receive the RF input signals from the pre-amplifiers over RF input conductors, and wherein the constant-current biasing circuitry is operative to provide at least one of the biasing signals to the pre-amplifiers over at least one of the RF input conductors.
2. The signal processing device according to claim 1 , and comprising a semiconductor substrate, wherein the processing circuitry and the biasing circuitry are fabricated on the semiconductor substrate.
3. The signal processing device according to claim 2 , wherein the semiconductor substrate comprises a Gallium Arsenide (GaAs) substrate, and wherein the processing circuitry fabricated on the GaAs substrate is operative to receive and process at least four RF input signals.
4. The signal processing device according to claim 1 , wherein the RF input signals comprise at least first and second RF input signals, and wherein the processing circuitry comprises at least first and second programmable gain stages, which are configured to modify respective first and second amplitudes of the first and second RF input signals by first and second factors so as to produce respective first and second modified RF signals, wherein each of the first and second factors is selectable from a respective predefined set of non-uniformly-spaced factors.
5. The signal processing device according to claim 1 , wherein the processing circuitry comprises at least one digitally-controlled component, and comprising digital control circuitry, which is operative to control the at least one digitally-controlled component.
6. The signal processing device according to claim 5 , wherein the digital control circuitry produces one or more control bits for controlling the at least one digitally-controlled component, and wherein the digital control circuitry is connected to the processing circuitry by control lines, such that each of the control bits is provided to the processing circuitry over only a single control line.
7. The signal processing device according to claim 5 , wherein the at least one digitally-controlled component comprises at least one component type selected from a group of types consisting of a digitally-controlled phase shifter and a digitally-controlled gain stage.
8. The signal processing device according to claim 5 , wherein the digital control circuitry comprises at least one Serial-to-Parallel (S/P) shift register.
9. The signal processing device according to claim 5 , wherein the processing circuitry is fabricated on a first semiconductor substrate, and wherein the digital control circuitry is fabricated on a second semiconductor substrate, different from the first substrate.
10. The signal processing device according to claim 5 , wherein the processing circuitry and the digital control circuitry are fabricated on a common semiconductor substrate.
11. The signal processing device according to claim 1 , wherein the processing circuitry is coupled to receive and process a first subset of the RF input signals that correspond to respective vertically-polarized signals received by the antenna elements, and a second subset of the RF input signals that correspond to respective horizontally-polarized signals received by the antenna elements.
12. The signal processing device according to claim 11 , wherein the processing circuitry comprises first and second programmable gain stages, and is operative to combine the RF input signals in the first subset to produce a first composite signal, to combine the RF input signals in the second subset to produce a second composite signal, to modify an amplitude of the first composite signal using the first programmable gain stage and to modify the amplitude of the second composite signal using the second programmable gain stage.
13. A signal processing device, comprising: first and second programmable gain stages, which are configured to modify respective first and second amplitudes of first and second radio Frequency (RF) input signals by first and second factors so as to produce respective first and second modified RF signals, wherein each of the first and second factors is selectable from a respective predefined set of non-uniformly-spaced factors; and a combiner, which is fabricated together with the gain stages on a semiconductor substrate and which is operative to combine the first and second modified RF signals to produce an RF output signal, wherein the first and second RF input signals are received from respective pre-amplifiers, and wherein the signal processing device comprises biasing circuitry, which is fabricated on the semiconductor substrate and is operative to produce one or more constant-current biasing signals for biasing the pre-amplifiers with a predefined, constant current, wherein the first and second RF input signals are received from the pre-amplifiers over RF input conductors, and wherein the constant-current biasing circuitry is operative to provide at least one of the constant-current biasing signals to the pre-amplifiers over at least one of the RF input conductors.
14. The signal processing device according to claim 13 , wherein the programmable gain stages are comprised in processing circuitry comprising at least one digitally-controlled component, and wherein the signal processing device further comprises digital control circuitry, which is operative to control the at least one digitally-controlled component.
15. The signal processing device according to claim 14 , wherein the digital control circuitry produces one or more control bits for controlling the at least one digitally-controlled component, and wherein the digital control circuitry is connected to the processing circuitry by control lines, such that each of the control bits is provided to the processing circuitry over only a single control line.
16. The signal processing device according to claim 14 , wherein the at least one digitally-controlled component comprises at least one component type selected from a group of types consisting of a digitally-controlled phase shifter and a digitally-controlled gain stage.
17. The signal processing device according to claim 14 , wherein the digital control circuitry comprises at least one Serial-to-Parallel (S/P) shift register.
18. The signal processing device according to claim 14 , and comprising an additional semiconductor substrate, wherein the digital control circuitry is fabricated on the additional semiconductor substrate.
19. The signal processing device according to claim 14 , wherein the digital control circuitry is fabricated on the semiconductor substrate.
20. An antenna system, comprising: one or more antenna elements, which are operative to receive Radio Frequency (RF) signals; one or more pre-amplifiers, which are operative to amplify the RF signals received by the antenna elements to produce RF input signals; and a signal processing device, comprising: a device package; processing circuitry, which is packaged in the device package and is operative to process the RF input signals produced by the pre-amplifiers so as to produce an RF output signal; and biasing circuitry, which is packaged in the device package and is operative to produce one or more constant-current biasing signals for biasing the pre-amplifiers with a predefined, constant current, wherein the first and second RF input signals are received from the pre-amplifiers over RF input conductors, and wherein the biasing circuitry is operative to provide at least one of the constant-current biasing signals to the pre-amplifiers over at least one of the RF input conductors.
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January 15, 2009
October 29, 2013
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